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An extra-uterine system to physiologically support the extreme premature lamb

Author

Listed:
  • Emily A. Partridge

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Marcus G. Davey

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Matthew A. Hornick

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Patrick E. McGovern

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Ali Y. Mejaddam

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Jesse D. Vrecenak

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Carmen Mesas-Burgos

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Aliza Olive

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Robert C. Caskey

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Theodore R. Weiland

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Jiancheng Han

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Alexander J. Schupper

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • James T. Connelly

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Kevin C. Dysart

    (The Children's Hospital of Philadelphia)

  • Jack Rychik

    (The Children's Hospital of Philadelphia)

  • Holly L. Hedrick

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • William H. Peranteau

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

  • Alan W. Flake

    (Center for Fetal Research, The Children’s Hospital of Philadelphia Research Institute)

Abstract

In the developed world, extreme prematurity is the leading cause of neonatal mortality and morbidity due to a combination of organ immaturity and iatrogenic injury. Until now, efforts to extend gestation using extracorporeal systems have achieved limited success. Here we report the development of a system that incorporates a pumpless oxygenator circuit connected to the fetus of a lamb via an umbilical cord interface that is maintained within a closed ‘amniotic fluid’ circuit that closely reproduces the environment of the womb. We show that fetal lambs that are developmentally equivalent to the extreme premature human infant can be physiologically supported in this extra-uterine device for up to 4 weeks. Lambs on support maintain stable haemodynamics, have normal blood gas and oxygenation parameters and maintain patency of the fetal circulation. With appropriate nutritional support, lambs on the system demonstrate normal somatic growth, lung maturation and brain growth and myelination.

Suggested Citation

  • Emily A. Partridge & Marcus G. Davey & Matthew A. Hornick & Patrick E. McGovern & Ali Y. Mejaddam & Jesse D. Vrecenak & Carmen Mesas-Burgos & Aliza Olive & Robert C. Caskey & Theodore R. Weiland & Jia, 2017. "An extra-uterine system to physiologically support the extreme premature lamb," Nature Communications, Nature, vol. 8(1), pages 1-16, April.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15112
    DOI: 10.1038/ncomms15112
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